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Reference: Vhttp://z3prover.github.io/api/html/group__capi.html#ga1d9cee57472b2c7623642f123b8f1781R  !"#$%&'()*+,-.namelogicstatus attributes assumptions# assumptionsformula/0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~arrayindexvalue to store at array[index]arayindex     domainrange !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQR  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQR  *+,-./0123456789:?;@<A=B>CDEFGHIJKLMNOPQ)('&%$#"!      ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! P  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQA(c) Iago Abal, 2012-2015 (c) David Castro, 2012-2015BSD3TIago Abal <mail@iagoabal.eu>, David Castro <david.castro.dcp@gmail.com>None 09:;<=IMTSolvers available in Z3.These are described at &http://smtlib.cs.uiowa.edu/logics.htmlUClosed formulas over the theory of linear integer arithmetic and arrays extended with free sort and function symbols but restricted to arrays with integer indices and values.VClosed linear formulas with free sort and function symbols over one- and two-dimentional arrays of integer index and real value.W|Closed formulas with free function and predicate symbols over a theory of arrays of arrays of integer index and real value.X1Closed linear formulas in linear real arithmetic.YTClosed quantifier-free formulas over the theory of bitvectors and bitvector arrays.ZClosed quantifier-free formulas over the theory of bitvectors and bitvector arrays extended with free sort and function symbols.[wClosed quantifier-free linear formulas over the theory of integer arrays extended with free sort and function symbols.\OClosed quantifier-free formulas over the theory of arrays with extensionality.]JClosed quantifier-free formulas over the theory of fixed-size bitvectors.^Difference Logic over the integers. In essence, Boolean combinations of inequations of the form x - y < b where x and y are integer variables and b is an integer constant._Unquantified linear integer arithmetic. In essence, Boolean combinations of inequations between linear polynomials over integer variables.`Unquantified linear real arithmetic. In essence, Boolean combinations of inequations between linear polynomials over real variables.a#Quantifier-free integer arithmetic.b Quantifier-free real arithmetic.cDifference Logic over the reals. In essence, Boolean combinations of inequations of the form x - y < b where x and y are real variables and b is a rational constant.dfUnquantified formulas built over a signature of uninterpreted (i.e., free) sort and function symbols.eTUnquantified formulas over bitvectors with uninterpreted sort function and symbols.fbDifference Logic over the integers (in essence) but with uninterpreted sort and function symbols.gUUnquantified linear integer arithmetic with uninterpreted sort and function symbols.hRUnquantified linear real arithmetic with uninterpreted sort and function symbols.iVUnquantified non-linear real arithmetic with uninterpreted sort and function symbols.jELinear real arithmetic with uninterpreted sort and function symbols.kLNon-linear integer arithmetic with uninterpreted sort and function symbols.uZ3 error codes.Z3 exceptions.#Z3 errors are re-thrown as Haskell  exceptions, see .\Pretty-printing mode for converting ASTs to strings. The mode can be one of the following:?Z3_PRINT_SMTLIB_FULL: Print AST nodes in SMTLIB verbose format.=Z3_PRINT_LOW_LEVEL: Print AST nodes using a low-level format.KZ3_PRINT_SMTLIB_COMPLIANT: Print AST nodes in SMTLIB 1.x compliant format.LZ3_PRINT_SMTLIB2_COMPLIANT: Print AST nodes in SMTLIB 2.x compliant format.!The interpretation of a function.!Mapping from arguments to values.Default value.#Type of an evaluation function for .!Evaluation may fail (i.e. return Z) for a few reasons, see ~. Different kinds of Z3 AST nodes.Different kinds of Z3 types.!Result of a satisfiability check.This corresponds to the z3_lbool type in the C API.A Z3 solver engine.QA(n) (incremental) solver, possibly specialized by a particular tactic or logic.A Z3 parameter set.vStarting at Z3 4.0, parameter sets are used to configure many components such as: simplifiers, tactics, solvers, etc.A result of applying a tacticA goal (aka problem)A tactic!Representation of the value of a  at a particular point.+An interpretation of a function in a model.>A model for the constraints asserted into the logical context.[5A list of type contructors for (recursive) datatypes.-A type contructor for a (recursive) datatype.YA kind of AST representing pattern and multi-patterns to guide quantifier instantiation.>A kind of AST representing constant and function declarations.,A kind of AST representing function symbols.A kind of AST representing types.A Z3 AST node.MThis is the data-structure used in Z3 to represent terms, formulas and types.A Z3 symbol.,Used to name types, constants and functions.A Z3 logical context.A Z3 configuration object.Create a configuration.See .Delete a configuration.See .Set a configuration parameter.;Run a computation using a temporally created configuration.^Note that the configuration object can be thrown away once it has been used to create the Z3 ./Create a context using the given configuration.Z3_del_context> is called by Haskell's garbage collector before freeing the  object."Create a Z3 (empty) parameter set.vStarting at Z3 4.0, parameter sets are used to configure many components such as: simplifiers, tactics, solvers, etc.Add a Boolean parameter k with value v to the parameter set p.Add a unsigned parameter k with value v to the parameter set p.Add a double parameter k with value v to the parameter set p.Add a symbol parameter k with value v to the parameter set p.&Convert a parameter set into a string.JThis function is mainly used for printing the contents of a parameter set.$Create a Z3 symbol using an integer.mkIntSymbol c i requires  0 <= i < 2^30Create a Z3 symbol using a \.ACreate a free (uninterpreted) type using the given name (symbol).BTwo free types are considered the same iff the have the same name. Create the boolean type.CThis type is used to create propositional variables and predicates. Create the integer type.oThis is the type of arbitrary precision integers. A machine integer can be represented using bit-vectors, see . Create the real type.cThis type is not a floating point number. Z3 does not have support for floating point numbers yet.+Create a bit-vector type of the given size.0This type can also be seen as a machine integer. mkBvSort c sz requires sz >= 0Create a finite-domain type.Create an array typeWe usually represent the array type as: [domain -> range]. Arrays are usually used to model the heap/memory in software verification.Create a tuple typeA tuple with n fields has a constructor and n projections. This function will also declare the constructor and projection functions.Create a contructorSCreate datatype, such as lists, trees, records, enumerations or unions of records.:The datatype may be recursive. Returns the datatype sort.]Create list of constructors?Create mutually recursive datatypes, such as a tree and forest.Returns the datatype sorts+Create an set type with a given domain typeDeclare a constant or function.*Create a constant or function application.Declare and create a constant.This is a shorthand for: *do xd <- mkFunDecl c x [] s; mkApp c xd []%Declare a fresh constant or function.$Declare and create a fresh constant.#Declare and create a variable (aka constant). An alias for .(Declarate and create a variable of sort bool.See .(Declarate and create a variable of sort real.See .(Declarate and create a variable of sort int.See .(Declarate and create a variable of sort  bit-vector.See .Declare and create a fresh variable (aka constant). An alias for .Declarate and create a fresh variable of sort bool.See .Declarate and create a fresh variable of sort real.See .Declarate and create a fresh variable of sort int.See .Declarate and create a fresh variable of sort  bit-vector.See . Create an AST node representing true. Create an AST node representing false. Create an AST node representing l = r.NThe distinct construct is used for declaring the arguments pairwise distinct. That is, Qand [ args!!i /= args!!j | i <- [0..length(args)-1], j <- [i+1..length(args)-1] ]Requires a non-empty list.Same as  but type-safe. Create an AST node representing not(a).1Create an AST node representing an if-then-else: ite(t1, t2, t3). Create an AST node representing  t1 iff t2. Create an AST node representing  t1 implies t2. Create an AST node representing  t1 xor t2.ECreate an AST node representing args[0] and ... and args[num_args-1].CCreate an AST node representing args[0] or ... or args[num_args-1].2Create an AST node representing the given boolean.ACreate an AST node representing args[0] + ... + args[num_args-1].ACreate an AST node representing args[0] * ... * args[num_args-1].CCreate an AST node representing args[0] - ... - args[num_args - 1].Requires a non-empty list.Same as  but type-safe.%Create an AST node representing -arg..Create an AST node representing arg1 div arg2..Create an AST node representing arg1 mod arg2..Create an AST node representing arg1 rem arg2.Create less than.Create less than or equal to.Create greater than. Create greater than or equal to.Coerce an integer to a real.Coerce a real to an integer.%Check if a real number is an integer.Bitwise negation.>Take conjunction of bits in vector, return vector of length 1.>Take disjunction of bits in vector, return vector of length 1. Bitwise and. Bitwise or.Bitwise exclusive-or. Bitwise nand. Bitwise nor. Bitwise xnor.&Standard two's complement unary minus.#Standard two's complement addition.&Standard two's complement subtraction. )Standard two's complement multiplication. Unsigned division. !Two's complement signed division. Unsigned remainder. :Two's complement signed remainder (sign follows dividend).9Two's complement signed remainder (sign follows divisor).Unsigned less than."Two's complement signed less than.Unsigned less than or equal to..Two's complement signed less than or equal to."Unsigned greater than or equal to.1Two's complement signed greater than or equal to.Unsigned greater than.%Two's complement signed greater than."Concatenate the given bit-vectors._Extract the bits high down to low from a bitvector of size m to yield a new bitvector of size n, where n = high - low + 1.RSign-extend of the given bit-vector to the (signed) equivalent bitvector of size m+i, where m% is the size of the given bit-vector.WExtend the given bit-vector with zeros to the (unsigned) equivalent bitvector of size m+i, where m% is the size of the given bit-vector.&Repeat the given bit-vector up length i. Shift left.Logical shift right.Arithmetic shift right.Rotate bits of t1 to the left i times. Rotate bits of t1 to the right i times.!Rotate bits of t1 to the left t2 times."Rotate bits of t1 to the right t2 times.# Create an n* bit bit-vector from the integer argument t1.$/Create an integer from the bit-vector argument t1.If  is_signed is false, then the bit-vector t1O is treated as unsigned. So the result is non-negative and in the range [0..2^N -1], where N are the number of bits in t1. If  is_signed is true, t1# is treated as a signed bit-vector.%=Create a predicate that checks that the bit-wise addition of t1 and t2 does not overflow.&DCreate a predicate that checks that the bit-wise signed addition of t1 and t2 does not underflow.'GCreate a predicate that checks that the bit-wise signed subtraction of t1 and t2 does not overflow.(@Create a predicate that checks that the bit-wise subtraction of t1 and t2 does not underflow.)DCreate a predicate that checks that the bit-wise signed division of t1 and t2 does not overflow.*4Check that bit-wise negation does not overflow when t1( is interpreted as a signed bit-vector.+CCreate a predicate that checks that the bit-wise multiplication of t1 and t2 does not overflow.,KCreate a predicate that checks that the bit-wise signed multiplication of t1 and t2 does not underflow.-XArray read. The argument a is the array and i is the index of the array that gets read.. Array update.The result of this function is an array that is equal to the input array (with respect to select) on all indices except for i, where it maps to v.hThe semantics of this function is given by the theory of arrays described in the SMT-LIB standard. See  http://smtlib.org for more details./Create the constant array.]The resulting term is an array, such that a select on an arbitrary index produces the value v.0Map a function f on the the argument arrays.The nR nodes args must be of array sorts [domain -> range_i]. The function declaration fZ must have type range_1 .. range_n -> range. The sort of the result is [domain -> range].1Access the array default value.pProduces the default range value, for arrays that can be represented as finite maps with a default range value.2Create the empty set.3Create the full set.4Add an element to a set.5Remove an element from a set.6!Take the union of a list of sets.7(Take the intersection of a list of sets.8)Take the set difference between two sets.9Take the complement of a set.:Check for set membership.;5Check if the first set is a subset of the second set.<!Create a numeral of a given sort.=Create a real from a fraction.>>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine integer. It is slightly faster than <. since it is not necessary to parse a string.?>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine unsigned integer. It is slightly faster than <. since it is not necessary to parse a string.@>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine 64-bit integer. It is slightly faster than <. since it is not necessary to parse a string.A>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine unsigned 64-bit integer. It is slightly faster than <. since it is not necessary to parse a string.B>Create a numeral of an int, bit-vector, or finite-domain sort.CCreate a numeral of sort real from a ^.DCreate a numeral of sort real from a _.ECreate a numeral of sort real from a `.FCreate a numeral of sort int from an a.GCreate a numeral of sort int from an b.HCreate a numeral of sort  Bit-vector from an a.ICreate a numeral of sort  Bit-vector from an b.J.Create a pattern for quantifier instantiation.Z3 uses pattern matching to instantiate quantifiers. If a pattern is not provided for a quantifier, then Z3 will automatically compute a set of patterns for it. However, for optimal performance, the user should provide the patterns.Patterns comprise a list of terms. The list should be non-empty. If the list comprises of more than one term, it is a called a multi-pattern.VIn general, one can pass in a list of (multi-)patterns in the quantifier constructor.KCreate a bound variable.1Bound variables are indexed by de-Bruijn indices.See Vhttp://z3prover.github.io/api/html/group__capi.html#ga1d4da8849fca699b345322f8ee1fa31eLCreate a forall formula.8The bound variables are de-Bruijn indices created using K.3Z3 applies the convention that the last element in xsE refers to the variable with index 0, the second to last element of xs+ refers to the variable with index 1, etc.MCreate an exists formula. Similar to L.NcCreate a universal quantifier using a list of constants that will form the set of bound variables.OeCreate a existential quantifier using a list of constants that will form the set of bound variables.PReturn the symbol name.Q'Return the sort kind of the given sort.R-Return the size of the given bit-vector sort.U&Get list of constructors for datatype.V%Get list of recognizers for datatype.W3Get list of accessors for the datatype constructor.X1Return the constant declaration name as a symbol.Y9Returns the number of parameters of the given declarationZHReturns the sort of the i-th parameter of the given function declaration[+Returns the range of the given declaration.\3Convert an app into AST. This is just type casting.]=Return the declaration of a constant or function application.^hReturn the number of argument of an application. If t is an constant, then the number of arguments is 0._2Return the i-th argument of the given application.`<Return a list of all the arguments of the given application.aReturn the sort of an AST node.bTReturn Z3_L_TRUE if a is true, Z3_L_FALSE if it is false, and Z3_L_UNDEF otherwise.c!Return the kind of the given AST.d2Return True if an ast is APP_AST, False otherwise.e:Convert an ast into an APP_AST. This is just type casting.f=Return numeral value, as a string of a numeric constant term.xRead a c value from an yRead an a value from an zRead a ^ value from an { Read the a value from an  of sort  bit-vector.See $.~(Evaluate an AST node in the given model.2The evaluation may fail for the following reasons:t contains a quantifier. the model m is partial.t is type incorrect.-Evaluate an array as a function, if possible.HReturn the function declaration f associated with a (_ as_array f) node.The (_ as-array f) AST node is a construct for assigning interpretations for arrays in Z3. It is the array such that forall indices i we have that (select (_ as-array f) i) is equal to (f i). This procedure returns Z3_TRUE if the a is an as-array AST node.Return the interpretation of the function f in the model m. Return NULL, if the model does not assign an interpretation for f. That should be interpreted as: the f does not matter.BReturn the number of entries in the given function interpretation.jReturn a _point_ of the given function intepretation. It represents the value of f in a particular point. Return the 'else', value of the given function interpretation.MReturn the arity (number of arguments) of the given function interpretation.Return the value of this point.9Return the number of arguments in a Z3_func_entry object.-Return an argument of a Z3_func_entry object.&Convert the given model into a string. Alias for . An alias for ~ with model completion enabled.Evaluate an AST node of sort bool in the given model.See ~ and x.Evaluate an AST node of sort int in the given model.See ~ and y.Evaluate an AST node of sort real in the given model.See ~ and z.Evaluate an AST node of sort  bit-vector in the given model. The flag signedV decides whether the bit-vector value is interpreted as a signed or unsigned integer.See ~ and {. Evaluate a  collection! of AST nodes in the given model.Run a evaluation function on a d data structure of  s (e.g. [AST],  Vector AST,  Maybe AST, etc).This a generic version of E which can be used in combination with other helpers. For instance, mapEval (evalInt c) can be used to obtain the a interpretation of a list of  of sort int.BEvaluate a function declaration to a list of argument/value pairs.<Set the pretty-printing mode for converting ASTs to strings.Convert an AST to a string.Convert a pattern to a string.Convert a sort to a string.Convert a FuncDecl to a string.:Convert the given benchmark into SMT-LIB formatted string.(The output format can be configured via .eThrows a z3 errorf)Throw an exception if a Z3 error happened%Return Z3 version number information.;Return a string describing all solver available parameters.0Set the given solver using the given parameters.Number of backtracking points.ECheck whether the assertions in a given solver are consistent or not.`Check whether the assertions in the given solver and optional assumptions are consistent or not. Retrieve the model for the last .The error handler is invoked if a model is not available because the commands above were not invoked for the given solver, or if the result was .%Retrieve the unsat core for the last /; the unsat core is a subset of the assumptions$Return a brief justification for an Unknown result for the commands  and .'Convert the given solver into a string.gConvert  from Z3.Base.C to hConvert  to c.* should be OK but this is more convenient.iConvert c to .jWraps a non-null pointer with k, or else returns Z.lmnopqTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~rstuvwxyz{|}~[ContextName of the sortName and sort of each fieldPResulting sort, and function declarations for the constructor and projections.ContextName of the constructorName of recognizer functionName, sort option, and sortRefs]ContextList of ConstructorsLogical context.#Name of the function (or constant).&Function domain (empty for constants).Return sort of the function.Logical context.Prefix.Sort of the constant. bit-width bit-width      !"#$%&'()*+,-Array.Index of the array to read..Array.Index i of the array.New value for i./Domain sort of the array.Value v that the array maps to.0 Function f.List of arrays.1Array.2Domain sort of the set.3Domain sort of the set.4Set.Element.5Set.Element.678 First set. Second set.9Set.:Element.Set.; First set. Second set.<= numeratordenominator (/= 0)>?@ABCDEFGH bit-width integer valueI bit-width integer valueJTerms.Kde-Bruijn index.LInstantiation patterns (see J).Bound (quantified) variables xs.Sorts of the bound variables.Body of the quantifier.MNInstantiation patterns (see J).0Constants to be abstracted into bound variables.Quantifier body.OInstantiation patterns (see J).0Constants to be abstracted into bound variables.Quantifier body.PQRSTUDatatype sort.Constructor declarations.VDatatype sort.Constructor recognizers.WDatatype sort.Constructor accessors.XYZA function declarationi[\]^_`abcdefghijklmnopqrstuvwxyz{signed?|}~Model m.Expression to evaluate t.Model completion?signed?namelogicstatus attributes assumptionsformulastring to parse sort namessortsdeclaration names declarations file name sort namessortsdeclaration names declarationsefghij~TUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~~      !"#$*%&'(+,)-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRUVWXYZ[\]^_`aSTbcdefvwghijklmnopqrstuxyz{|}~uvwxyz{|}~opqrstlmnTUVWXYZ[\]^_`abcdefghijk~lmnopqTUVWXYZ[\]^_`abcdefghijklmnopqrstu vwxyz{|}~rs tuvwxyz{|}~[]      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~efghij<(c) Iago Abal, 2013-2015 (c) David Castro, 2013BSD3TIago Abal <mail@iagoabal.eu>, David Castro <david.castro.dcp@gmail.com>None 9:;<=!Values for Z3 options.Any !V type can be passed to a Z3 option (and values will be converted into an appropriate \). Since 0.4 the % instance has been replaced by a new _ instance.Pair option-value."Z3 configuration.#Default configuration.$Append configurations.%Set a configuration option.&Set configuration.If you are using the   K interface, you don't need to call this function directly, just pass your " to evalZ3* functions.Set an option.!"#$%&'()*+,-!"#$%&"&#$%!!"#$%&'()*+,-A(c) Iago Abal, 2013-2015 (c) David Castro, 2013-2015BSD3TIago Abal <mail@iagoabal.eu>, David Castro <david.castro.dcp@gmail.com>None 9:;<=I.#Type of an evaluation function for .!Evaluation may fail (i.e. return Z) for a few reasons, see ./Z3 environment.4Eval a Z3 script.54Eval a Z3 script with default configuration options.6Create a new Z3 environment.7*Eval a Z3 script with a given environment.QEnvironments may facilitate running many queries under the same logical context.mNote that an environment may change after each query. If you want to preserve the same environment then use H , as in evalZ3WithEnv env (local query).8"Create a Z3 (empty) parameter set.vStarting at Z3 4.0, parameter sets are used to configure many components such as: simplifiers, tactics, solvers, etc.9Add a Boolean parameter k with value v to the parameter set p.:Add a unsigned parameter k with value v to the parameter set p.;Add a double parameter k with value v to the parameter set p.<Add a symbol parameter k with value v to the parameter set p.=&Convert a parameter set into a string.JThis function is mainly used for printing the contents of a parameter set.>$Create a Z3 symbol using an integer.?"Create a Z3 symbol using a string. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gafebb0d3c212927cf7834c3a20a84ecae@ACreate a free (uninterpreted) type using the given name (symbol). Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga736e88741af1c178cbebf94c49aa42deA Create the boolean type. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gacdc73510b69a010b71793d429015f342B Create the integer type. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga6cd426ab5748653b77d389fd3eac1015C Create the real type. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga40ef93b9738485caed6dc84631c3c1a0D+Create a bit-vector type of the given size.0This type can also be seen as a machine integer. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaeed000a1bbb84b6ca6fdaac6cf0c1688ECreate a finite-domain type.FCreate an array type Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gafe617994cce1b516f46128e448c84445GCreate a tuple type Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga7156b9c0a76a28fae46c81f8e3cdf0f1HCreate a contructor Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaa779e39f7050b9d51857887954b5f9b0ICreate datatype, such as lists, trees, records, enumerations or unions of records. The datatype may be recursive. Return the datatype sort. Reference nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gab6809d53327d807da9158abdf75df387J?Create mutually recursive datatypes, such as a tree and forest.Returns the datatype sortsKCreate a set type Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga6865879523e7e882d7e50a2d8445ac8bL A Z3 functionM*Create a constant or function application. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga33a202d86bf628bfab9b6f437536cebeNDeclare and create a constant. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga093c9703393f33ae282ec5e8729354efODeclare and create a constant. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga093c9703393f33ae282ec5e8729354efP%Declare a fresh constant or function. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga1f60c7eb41c5603e55a188a14dc929ecQ#Declare and create a variable (aka constant). An alias for N.R(Declarate and create a variable of sort bool.See Q.S(Declarate and create a variable of sort real.See Q.T(Declarate and create a variable of sort int.See Q.U(Declarate and create a variable of sort  bit-vector.See Q.VDeclare and create a fresh variable (aka constant). An alias for O.WDeclarate and create a fresh variable of sort bool.See V.XDeclarate and create a fresh variable of sort real.See V.YDeclarate and create a fresh variable of sort int.See V.ZDeclarate and create a fresh variable of sort  bit-vector.See V.[ Create an AST node representing true. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gae898e7380409bbc57b56cc5205ef1db7\ Create an AST node representing false. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga5952ac17671117a02001fed6575c778d] Create an AST node representing l = r. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga95a19ce675b70e22bb0401f7137af37c^NThe distinct construct is used for declaring the arguments pairwise distinct.Requires a non-empty list. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaa076d3a668e0ec97d61744403153ecf7_Same as ^ but type-safe.` Create an AST node representing not(a). Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga3329538091996eb7b3dc677760a61072a1Create an AST node representing an if-then-else: ite(t1, t2, t3). Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga94417eed5c36e1ad48bcfc8ad6e83547b Create an AST node representing  t1 iff t2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga930a8e844d345fbebc498ac43a696042c Create an AST node representing  t1 implies t2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac829c0e25bbbd30343bf073f7b524517d Create an AST node representing  t1 xor t2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gacc6d1b848032dec0c4617b594d4229eceECreate an AST node representing args[0] and ... and args[num_args-1]. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gacde98ce4a8ed1dde50b9669db4838c61fCCreate an AST node representing args[0] or ... or args[num_args-1]. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga00866d16331d505620a6c515302021f9g2Create an AST node representing the given boolean.hACreate an AST node representing args[0] + ... + args[num_args-1]. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4e4ac0a4e53eee0b4b0ef159ed7d0cd5iACreate an AST node representing args[0] * ... * args[num_args-1]. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gab9affbf8401a18eea474b59ad4adc890jCCreate an AST node representing args[0] - ... - args[num_args - 1].Requires a non-empty list. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4f5fea9b683f9e674fd8f14d676cc9a9kSame as j but type-safe.l%Create an AST node representing -arg. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gadcd2929ad732937e25f34277ce4988eam.Create an AST node representing arg1 div arg2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga1ac60ee8307af8d0b900375914194ff3n.Create an AST node representing arg1 mod arg2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga8e350ac77e6b8fe805f57efe196e7713o.Create an AST node representing arg1 rem arg2. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga2fcdb17f9039bbdaddf8a30d037bd9ffpCreate less than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga58a3dc67c5de52cf599c346803ba1534qCreate less than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaa9a33d11096841f4e8c407f1578bc0bfrCreate greater than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga46167b86067586bb742c0557d7babfd3s Create greater than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gad9245cbadb80b192323d01a8360fb942tCoerce an integer to a real. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga7130641e614c7ebafd28ae16a7681a21uCoerce a real to an integer. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga759b6563ba1204aae55289009a3fdc6dv%Check if a real number is an integer. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaac2ad0fb04e4900fdb4add438d137ad3wBitwise negation. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga36cf75c92c54c1ca633a230344f23080x>Take conjunction of bits in vector, return vector of length 1. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaccc04f2b58903279b1b3be589b00a7d8y>Take disjunction of bits in vector, return vector of length 1. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gafd18e127c0586abf47ad9cd96895f7d2z Bitwise and. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gab96e0ea55334cbcd5a0e79323b57615d{ Bitwise or. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga77a6ae233fb3371d187c6d559b2843f5|Bitwise exclusive-or. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga0a3821ea00b1c762205f73e4bc29e7d8} Bitwise nand. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga96dc37d36efd658fff5b2b4df49b0e61~ Bitwise nor. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gabf15059e9e8a2eafe4929fdfd259aadb Bitwise xnor. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga784f5ca36a4b03b93c67242cc94b21d6&Standard two's complement unary minus. Reference: < nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga0c78be00c03eda4ed6a983224ed5c7b7#Standard two's complement addition. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga819814e33573f3f9948b32fdc5311158&Standard two's complement subtraction. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga688c9aa1347888c7a51be4e46c19178e)Standard two's complement multiplication. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga6abd3dde2a1ceff1704cf7221a72258cUnsigned division. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga56ce0cd61666c6f8cf5777286f590544!Two's complement signed division. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gad240fedb2fda1c1005b8e9d3c7f3d5a0Unsigned remainder. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga5df4298ec835e43ddc9e3e0bae690c8d:Two's complement signed remainder (sign follows dividend). Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga46c18a3042fca174fe659d3185693db19Two's complement signed remainder (sign follows divisor). Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga95dac8e6eecb50f63cb82038560e0879Unsigned less than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga5774b22e93abcaf9b594672af6c7c3c4"Two's complement signed less than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga8ce08af4ed1fbdf08d4d6e63d171663aUnsigned less than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gab738b89de0410e70c089d3ac9e696e87.Two's complement signed less than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gab7c026feb93e7d2eab180e96f1e6255d"Unsigned greater than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gade58fbfcf61b67bf8c4a441490d3c4df1Two's complement signed greater than or equal to. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaeec3414c0e8a90a6aa5a23af36bf6dc5Unsigned greater than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga063ab9f16246c99e5c1c893613927ee3%Two's complement signed greater than. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4e93a985aa2a7812c7c11a2c65d7c5f0"Concatenate the given bit-vectors. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gae774128fa5e9ff7458a36bd10e6ca0fa_Extract the bits high down to low from a bitvector of size m to yield a new bitvector of size n, where n = high - low + 1. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga32d2fe7563f3e6b114c1b97b205d4317RSign-extend of the given bit-vector to the (signed) equivalent bitvector of size m+i, where m% is the size of the given bit-vector. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gad29099270b36d0680bb54b560353c10eWExtend the given bit-vector with zeros to the (unsigned) equivalent bitvector of size m+i, where m% is the size of the given bit-vector. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac9322fae11365a78640baf9078c428b3&Repeat the given bit-vector up length i. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga03e81721502ea225c264d1f556c9119d Shift left. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac8d5e776c786c1172fa0d7dfede454e1Logical shift right. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac59645a6edadad79a201f417e4e0c512Arithmetic shift right. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga674b580ad605ba1c2c9f9d3748be87c4Rotate bits of t1 to the left i times. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4932b7d08fea079dd903cd857a52dcdaRotate bits of t1 to the right i times. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga3b94e1bf87ecd1a1858af8ebc1da4a1cRotate bits of t1 to the left t2 times. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaf46f1cb80e5a56044591a76e7c89e5e7Rotate bits of t1 to the right t2 times. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gabb227526c592b523879083f12aab281f Create an n* bit bit-vector from the integer argument t1. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga35f89eb05df43fbd9cce7200cc1f30b5/Create an integer from the bit-vector argument t1. If  is_signed is false, then the bit-vector t1O is treated as unsigned. So the result is non-negative and in the range [0..2^N -1], where N are the number of bits in t1. If  is_signed is true, t1# is treated as a signed bit-vector. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac87b227dc3821d57258d7f53a28323d4=Create a predicate that checks that the bit-wise addition of t1 and t2 does not overflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga88f6b5ec876f05e0d7ba51e96c4b077fDCreate a predicate that checks that the bit-wise signed addition of t1 and t2 does not underflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga1e2b1927cf4e50000c1600d47a152947GCreate a predicate that checks that the bit-wise signed subtraction of t1 and t2 does not overflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga785f8127b87e0b42130e6d8f52167d7c@Create a predicate that checks that the bit-wise subtraction of t1 and t2 does not underflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga6480850f9fa01e14aea936c88ff184c4DCreate a predicate that checks that the bit-wise signed division of t1 and t2 does not overflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaa17e7b2c33dfe2abbd74d390927ae83e4Check that bit-wise negation does not overflow when t1( is interpreted as a signed bit-vector. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gae9c5d72605ddcd0e76657341eaccb6c7CCreate a predicate that checks that the bit-wise multiplication of t1 and t2 does not overflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga86f4415719d295a2f6845c70b3aaa1dfKCreate a predicate that checks that the bit-wise signed multiplication of t1 and t2 does not underflow. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga501ccc01d737aad3ede5699741717fdaXArray read. The argument a is the array and i is the index of the array that gets read. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga38f423f3683379e7f597a7fe59eccb67 Array update. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gae305a4f54b4a64f7e5973ae6ccb13593Create the constant array. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga84ea6f0c32b99c70033feaa8f00e8f2d!map f on the the argument arrays. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga9150242d9430a8c3d55d2ca3b9a4362dAccess the array default value. Produces the default range value, for arrays that can be represented as finite maps with a default range value. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga78e89cca82f0ab4d5f4e662e5e5fba7dCreate the empty set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga358b6b80509a567148f1c0ca9252118cCreate the full set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga5e92662c657374f7332aa32ce4503dd2Add an element to a set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga856c3d0e28ce720f53912c2bbdd76175Remove an element from a set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga80e883f39dd3b88f9d0745c8a5b91d1d!Take the union of a list of sets. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4050162a13d539b8913200963bb4743c(Take the intersection of a list of sets. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga8a8abff0ebe6aeeaa6c919eaa013049d)Take the set difference between two sets. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gabb49c62f70b8198362e1a29ba6d8bde1Take the complement of a set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga5c57143c9229cdf730c5103ff696590fCheck for set membership. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac6e516f3dce0bdd41095c6d6daf560635Check if the first set is a subset of the second set. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga139c5803af0e86464adc7cedc53e7f3a!Create a numeral of a given sort. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gac8aca397e32ca33618d8024bff32948cCreate a numeral of sort real.>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine integer. It is slightly faster than . since it is not necessary to parse a string.>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine unsigned integer. It is slightly faster than . since it is not necessary to parse a string.>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine 64-bit integer. It is slightly faster than . since it is not necessary to parse a string.>Create a numeral of an int, bit-vector, or finite-domain sort.;This function can be use to create numerals that fit in a machine unsigned 64-bit integer. It is slightly faster than . since it is not necessary to parse a string.>Create a numeral of an int, bit-vector, or finite-domain sort.Create a numeral of sort real from a ^.Create a numeral of sort real from a _.Create a numeral of sort real from a `.Create a numeral of sort int from an a.Create a numeral of sort int from an b.Create a numeral of sort  Bit-vector from an a.Create a numeral of sort  Bit-vector from an b.Return the symbol name. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaf1683d9464f377e5089ce6ebf2a9bd31Return the sort kind. Reference: Vhttp://z3prover.github.io/api/html/group__capi.html#gacd85d48842c7bfaa696596d16875681a-Return the size of the given bit-vector sort. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga8fc3550edace7bc046e16d1f96ddb419&Get list of constructors for datatype.%Get list of recognizers for datatype.#Get list of accessors for datatype.1Return the constant declaration name as a symbol. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga741b1bf11cb92aa2ec9ef2fef73ff1299Returns the number of parameters of the given declarationHReturns the sort of the i-th parameter of the given function declaration+Returns the range of the given declaration.3Convert an app into AST. This is just type casting.=Return the declaration of a constant or function application.hReturn the number of argument of an application. If t is an constant, then the number of arguments is 0.2Return the i-th argument of the given application.<Return a list of all the arguments of the given application.Return the sort of an AST node.Returns  Just True,  Just False, or Nothing for  undefined. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga133aaa1ec31af9b570ed7627a3c8c5a4!Return the kind of the given AST. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4c43608feea4cae363ef9c520c239a5c2Return True if an ast is APP_AST, False otherwise.Cast AST into an App.=Return numeral value, as a string of a numeric constant term.Simplify the expression. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gada433553406475e5dd6a494ea957844c3Simplify the expression using the given parameters. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga34329d4c83ca8c98e18b2884b679008cRead a c value from an Return the integer valueReturn rational value Read the a value from an  of sort  bit-vector.See .(Evaluate an AST node in the given model.2The evaluation may fail for the following reasons:t contains a quantifier. the model m is partial.t is type incorrect.fGet array as a list of argument/value pairs, if it is represented as a function (ie, using as-array).Return the interpretation of the function f in the model m. Return NULL, if the model does not assign an interpretation for f. That should be interpreted as: the f does not matter. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gafb9cc5eca9564d8a849c154c5a4a8633The (_ as-array f) AST node is a construct for assigning interpretations for arrays in Z3. It is the array such that forall indices i we have that (select (_ as-array f) i) is equal to (f i). This procedure returns Z3_TRUE if the a is an as-array AST node. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga4674da67d226bfb16861829b9f129cfaHReturn the function declaration f associated with a (_ as_array f) node. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga7d9262dc6e79f2aeb23fd4a383589ddaBReturn the number of entries in the given function interpretation. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga2bab9ae1444940e7593729beec279844 jReturn a "point" of the given function intepretation. It represents the value of f in a particular point. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaf157e1e1cd8c0cfe6a21be6370f659da  Return the 'else', value of the given function interpretation. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga46de7559826ba71b8488d727cba1fb64 MReturn the arity (number of arguments) of the given function interpretation. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaca22cbdb6f7787aaae5d814f2ab383d8 Return the value of this point. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga9fd65e2ab039aa8e40608c2ecf7084da 9Return the number of arguments in a Z3_func_entry object. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga51aed8c5bc4b1f53f0c371312de3ce1a-Return an argument of a Z3_func_entry object. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga6fe03fe3c824fceb52766a4d8c2cbeab&Convert the given model into a string. Alias for . An alias for  with model completion enabled.Evaluate an AST node of sort bool in the given model.See  and .Evaluate an AST node of sort int in the given model.See  and .Evaluate an AST node of sort real in the given model.See  and .Evaluate an AST node of sort  bit-vector in the given model. The flag signedV decides whether the bit-vector value is interpreted as a signed or unsigned integer.See  and .6Evaluate a collection of AST nodes in the given model.Run a evaluation function on a d data structure of  s (e.g. [AST],  Vector AST,  Maybe AST, etc).This a generic version of E which can be used in combination with other helpers. For instance, mapEval evalInt can be used to obtain the a interpretation of a list of  of sort int./Get function as a list of argument/value pairs.)3Set the mode for converting expressions to strings.*Convert an AST to a string.+Convert a pattern to a string.,Convert a sort to a string.-Convert a FuncDecl to a string..:Convert the given benchmark into SMT-LIB formatted string.(The output format can be configured via )./#Parse SMT expressions from a stringThe sort and declaration arguments allow parsing in a context in which variables and functions have already been declared. They are almost never used.0!Parse SMT expressions from a fileThe sort and declaration arguments allow parsing in a context in which variables and functions have already been declared. They are almost never used.1%Return Z3 version number information.8;Return a string describing all solver available parameters.9*Set the solver using the given parameters.:Create a backtracking point.; Backtrack n backtracking points.=Number of backtracking points.>-Assert a constraing into the logical context. Reference: nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#ga1a05ff73a564ae7256a2257048a4680a?dAssert a constraint a into the solver, and track it (in the unsat) core using the Boolean constant p.5This API is an alternative to Z3_solver_check_assumptions for extracting unsat cores. Both APIs can be used in the same solver. The unsat core will contain a combination of the Boolean variables provided using Z3_solver_assert_and_track and the Boolean literals provided using Z3_solver_check_assumptions.@ECheck whether the assertions in a given solver are consistent or not.A`Check whether the assertions in the given solver and optional assumptions are consistent or not.B Retrieve the model for the last @.The error handler is invoked if a model is not available because the commands above were not invoked for the given solver, or if the result was .C%Retrieve the unsat core for the last A/; the unsat core is a subset of the assumptionsD$Return a brief justification for an Unknown result for the commands @ and A.E'Convert the given solver into a string.FCreate a backtracking point.For push; m; pop 1 see H.G Backtrack n backtracking points. Contrary to ; this funtion checks whether n/ is within the size of the solver scope stack.H4Run a query and restore the initial logical context.This is a shorthand for F, run the query, and G.IBacktrack all the way.J"Get number of backtracking points.L=Check whether the given logical context is consistent or not.M`Check whether the assertions in the given solver and optional assumptions are consistent or not.O Get model. Reference : nhttp://research.microsoft.com/en-us/um/redmond/projects/z3/group__capi.html#gaff310fef80ac8a82d0a51417e073ec0aPCheck satisfiability and, if sat', compute a value from the given model.E.g. 1 withModel $ \m -> fromJust <$> evalInt m x Q%Retrieve the unsat core for the last M0; the unsat core is a subset of the assumptions.<./0123456789:;<=>?@ABCDEFGName of the sortName and sort of each fieldPResulting sort, and function declarations for the constructor and projections.HName of the sonstructorName of recognizer functionName, sort option, and sortRefsIJKLMNOPQRSTU bit-widthVWXYZ bit-width[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ bit-width integer value bit-width integer valueDatatype sort.Constructor declarations.Datatype sort.Constructor recognizers.Datatype sort.Constructor recognizers.A function declarationisigned?Model completion?     signed? !"#$%&'()*+,-.namelogicstatus attributes assumptions1formula/string to parse sort namessortsdeclaration names declarations0string to parse sort namessortsdeclaration names declarations123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklopqrstuvwxyz{|}~!"#$%&./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQ1230TUVWXYZ[\]^_`abcdefghijk54/6789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]`abcdef^_ghijklmnopqrstuvwxyz{|}~     . !"#$%&'()*+,-./0uvwxyz{|}~opqrst1l23456789:;<=>?@ABCDEKLMNOPQFGHIJ3./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRS    !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuuvwwxyz{|}~      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~      !"#$%&'()*+,-./0123 456789:      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